Plates, Bottles, and Vials
Secure your research with our specialized range of laboratory containers, designed for optimal sample preservation, microbial growth, and secure transport. We offer solutions in both high-clarity borosilicate glass and medical-grade plastics to suit your specific chemical compatibility and durability needs.
Microbiology Petri Dishes
Our petri dishes are manufactured from premium polystyrene for excellent optical clarity, available in both vented and non-vented designs for controlled gas exchange.
- 35 mm & 60 mm: Ideal for small-scale experiments, single-colony isolation, and space-saving incubation.
- 65 mm: Specifically designed for contact plate applications and environmental monitoring.
- 90 mm (Standard): The global benchmark for routine bacterial and fungal cultures.
- 100 mm & 150 mm: Extended surface areas for multi-strain assays and high-density growth.
Plastic Sample Bottles (Water & Environmental)
Our specialized water sampling bottles are engineered to maintain sample integrity from the collection site to the laboratory.
- Standard Plastic Bottles: High-density polyethylene (HDPE) containers used for general liquid collection and chemical analysis (100 ml to 1000 ml).
- Bottles with Sodium Thiosulfate: Pre-dosed with sodium thiosulfate to neutralize chlorine and halogens, essential for microbiological testing in treated water, swimming pools, and municipal supplies.
- Bottles without Sodium Thiosulfate: Ideal for collecting unchlorinated water, wastewater, or samples intended for heavy metal and chemical parameter analysis.
Laboratory Vials
We provide high-recovery vials for chromatography, diagnostics, and pharmaceutical storage, ensuring minimal sample loss and maximum chemical stability.
- Autosampler Vials: 2 ml standard vials with screw or crimp necks, available in clear or amber glass.
- Storage & Scintillation Vials: Versatile capacities ranging from 1 ml, 2 ml, 5 ml up to 20 ml, 40 ml, and 60 ml.
- Cryogenic Vials: Specialized polypropylene vials designed for safe sample preservation in ultra-low temperature environments.
